Radical Reduction of Epoxides Using a Titanocene(III)/Water System: Synthesis of β‐Deuterated Alcohols and Their Use as Internal Standards in Food Analysis

Tania Jiménez; Araceli G. Campaña; Btissam Bazdi; Miguel Paradas; David Arraéz-Román; Antonio Segura‐Carretero; Alberto Fernandez Gutierrez; J. Enrique Oltra; Rafael Robles; José Justicia; Juan M. Cuerva

doi:10.1002/ejoc.201000487

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Article

2010

Radical Reduction of Epoxides Using a Titanocene(III)/Water System: Synthesis of β‐Deuterated Alcohols and Their Use as Internal Standards in Food Analysis

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2010

Vol 2010 (22)

Vol. 2010

DOI: 10.1002/ejoc.201000487

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Abstract We describe a comprehensive study into the Cp 2 TiCl‐mediated reductive epoxide ring opening using either water as a hydrogen source or deuterium oxide as a deuterium source. The remarkable chemical profile of this reaction allows access to alcohols with anti‐Markovnikov regiochemistry from different epoxides. The use of D 2 O as a deuterium source leads to an efficient synthesis of β‐deuterated alcohols, including a deuterated sample of tyrosol, a bioactive compound contained in the leaves of the olive, which was successfully applied as an internal standard in food analysis.

Radical Reduction of Epoxides Using a Titanocene(III)/Water System: Synthesis of β‐Deuterated Alcohols and Their Use as Internal Standards in Food Analysis

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Radical Reduction of Epoxides Using a Titanocene(III)/Water System: Synthesis of β‐Deuterated Alcohols and Their Use as Internal Standards in Food Analysis

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Alberto Fernandez Gutierrez

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